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ERE 551: GIS for Engineers
3.00 Credits
SUNY College of Environmental Science and Forestry
Two hours of lecture and three hours of laboratory per week. Introduction to fundamental concepts in geographic information systems (GISs) with a focus on engineering applications. Fundamental concepts and development of geographic information systems including models and georeferencing systems used to represent and characterize spatial data. Data processing including collection and preprocessing, data management, spatial analysis and manipulation, and data output. Necessity and utility of spatial data in engineering design analysis. Fall. Prerequisite: Calculus. Co-requisite: ERE 371 or equivalent.
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ERE 551 - GIS for Engineers
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ERE 552: Fundamentals of Remote Sensing
3.00 Credits
SUNY College of Environmental Science and Forestry
Two hours of lecture and three hours of laboratory per week. Principles and techniques of environmental remote sensing including potentials, limitations, instrumentation and unique requirements. Procedures and principles of acquiring, analyzing and using a wide range of imagery types for environmental applications and design. Both qualitative and quantitative interpretation procedures are presented. Oriented for multidisciplinary participation. Fall or Spring. Prerequisites: Physics and calculus or permission of instructor. Note: Credit will not be granted for both FEG 352 and ERE 552.
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ERE 552 - Fundamentals of Remote Sensing
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ERE 561: Engineering Thermodynamics
3.00 Credits
SUNY College of Environmental Science and Forestry
Three hours of lecture per week. Principles of classical thermodynamics applied to engineering practice. First and second laws; heat effects; property functions and their correlation; physical and chemical equilibrium; solutions and mixtures; equations of state. Compressible flow. Electrolyte solutions. Thermodynamic analysis of processes and systems via case studies and computer simulation. Compressible flow and/or thermodynamics of electrolyte solutions. Spring. Prerequisites: Physics and Calculus. Note: Credit will not be granted for both PSE 361 and ERE 561.
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ERE 561 - Engineering Thermodynamics
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ERE 563: Photogrammetry I
3.00 Credits
SUNY College of Environmental Science and Forestry
Two hours of lecture and discussion; three hours of laboratory and discussion per week. Basic photogrammetric and photo interpretation concepts as a means of acquiring reliable data for engineering and management planning. Potentials, limitations, instrumentation and unique requirements are considered. Spring. Prerequisite: ERE 371. Note: Credit will not be granted for both FEG 363 and ERE 563.
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ERE 563 - Photogrammetry I
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ERE 565: Principles of Remote Sensing
4.00 Credits
SUNY College of Environmental Science and Forestry
Three hours of lecture and three hours of laboratory and discussion per week. Introduction to water resources engineering. A qualitative and quantitative introduction to the fundamentals of acquiring, analyzing and utilizing remote sensing data. Introductory concepts and methods in digital image processing and photogrammetry. Spring. Prerequisite: ERE 371 Surveying for Engineers or permission of instructor. Note: Credit will not be granted for both FEG 365 and ERE 565.
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ERE 565 - Principles of Remote Sensing
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ERE 566: Global Positioning Systems I
1.00 Credits
SUNY College of Environmental Science and Forestry
Three hours of lecture per week for the first six weeks of the semester. Introduction to the Global Positioning System (GPS). Practical use of GPS receivers capable of positioning points to 1 to 5 meters. Planning of GPS surveys, collection of GPS observations and use of GPS software on personal computers to determine positions of targets of interest. Demonstration of porting collected GPS data to a geographic information system. Fall. Prerequisites: ERE 371 and computer literacy. Pre- or co-requisite(s): ERE 371 or equivalent and computer literacy.
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ERE 566 - Global Positioning Systems I
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ERE 570: Principles of Mass and Energy Balances
3.00 Credits
SUNY College of Environmental Science and Forestry
Three hours of lecture per week. Conservation of mass and energy applied to steady-state and dynamic process units and systems. Problem analysis and solution; computational techniques. Thermodynamic data and their use; real vs. perfect gases; steam properties; psychrometry. Computer simulation of steady and non-steady state process systems. Fall. Prerequisites: Physics, Calculus, and General Chemistry. Note: Credit will not be granted for both PSE 370 and ERE 570.
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ERE 570 - Principles of Mass and Energy Balances
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ERE 571: Fluid Mechanics
3.00 Credits
SUNY College of Environmental Science and Forestry
Three hours of lecture per week. Fluid statics. Principles of mass, energy and momentum balance. Bernoulli's equation. Application to pipe flows, flow measurement and porous media. Movement of particles in fluid media. Rheology of fluids and suspensions typical in the pulp and paper industry (pulps, black liquor, etc.) Filtration and sedimentation of fibrous and particulate suspensions. Characteristics of pumps. Flow systems with economic considerations. Analysis of some papermaking operations such as drainage, dewatering, vacuum dewatering and wet pressing. Fall. Prerequisites: Physics, Chemistry, Calculus. Note: Credit will not be granted for both PSE 371 and ERE 571.
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ERE 571 - Fluid Mechanics
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ERE 580: Coordinate Systems for GIS
1.00 Credits
SUNY College of Environmental Science and Forestry
One hour of lecture per week. Basic principles and procedures related to earth coordinate systems. Topics include ways to specify locations, reference systems (datums), common earth coordinate systems, coordinate transformations, and general approaches to determining location in the field. Spring. Pre- or co-requisites: Mathematical preparation in geometry, trigonometry, analytical geometry. Knowledge or experience with mapping or GIS.
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ERE 580 - Coordinate Systems for GIS
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ERE 585: Microscopy and Photomicrography
3.00 Credits
SUNY College of Environmental Science and Forestry
Two hours of lecture, one hour of demonstration, and three to five hours of laboratory per week. Principles of light microscopy and photomicrography with extensive laboratory practice. Fall. Prerequisite: Permission of instructor.
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ERE 585 - Microscopy and Photomicrography
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